KR900006832Y1 - Signal switching circuit for monitor - Google Patents

Abstract

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Description

Signal switching circuit of monitoring monitor

1 is a circuit diagram of the present invention.

2 is an input / output waveform diagram of a counter integrated device of the present invention.

* Explanation of symbols for main parts of the drawings

1-4: Camera Control Unit 5: Pulse Time Control Unit

6 muting unit IC ₁ oscillating integrated device

IC ₂ : Counter integrated device SK ₁ -SK ₅ : Switch

Q ₁ -Q ₇ : Transistor

The present invention relates to a signal switching circuit of a monitoring monitor that allows multiple camera signals to be displayed manually and automatically on a single monitor.

In the related art, when displaying multiple camera signals for monitoring using a single monitor, a switch composed of a relay switch or the like may be manually switched.

In other words, it is inconvenient to use because the user must select the monitoring camera signal to be displayed on the monitor.

In view of the above, the present invention allows multiple monitor camera signals to be sequentially displayed on one monitor for the set time, and at the same time, the video and audio signals are muted when the camera signals are switched. By using a counter integrated device and adjusting the pulse time with a variable resistor, the camera signal is sequentially output by the switching action of the transistor, and the muting unit is operated when the camera is switched.

When described in detail by the accompanying drawings as follows.

A pulse generating capacitor C ₁ , a resistor R ₁ , and a pulse time adjusting unit 5 are connected to the pin 2 of the oscillation integrated device IC ₁ applied through the switch SK ₁ of the power supply Vcc. and the oscillation output which is output from pin 3 of the oscillating integrated element (IC ₁₎ is configured to be applied to the pin 14 and the muting unit 6 of the counter integrated device (IC ₁₎ and a counter integrated device (IC ₂₎ The pin (2) (3) (4) (7) output of is through the switch (SK ₂ -SK ₅ ) and then applied to the video camera controller (1-4) so that the camera (AD) signal is applied to the RE / IF stage of the monitor. Configure to be applied to

The dual pulse time adjusting unit 5 has a diode D ₁ and a resistor R ₂ (R ₃ ) on the collector side of the transistor Q _{1 to} which an image signal is applied to the base through the resistors R ₄ and R ₅ . And a variable resistor VR connected to each other, and the muting unit 6 is a collector output of a transistor Q ₂ having a resistor R ₆ (R ₇ ) connected to a base, and an audio signal and a video signal muting transistor Q _3. ), And the video camera control unit 1-4 connected to each camera AD is configured to operate the transistors Q _4- Q ₇ when the output of the counter integrated device IC ₂ is applied.

Looking at the operation to display each camera (A-D) signal sequentially in the present invention configured as described above are as follows.

A switch (SK _1), as shown in the drawing when "on" switch (SK ₂ -SK ₅₎ is the "off" state as indicated in the drawing power (Vcc) is oscillating integrated device through a switch (SK ₁₎ ( IC ₁₎ so applied to pin 4 of the oscillating integrated element (IC ₁₎ is made to operate the oscillation by a pin (2) resistance (R ₁₎ and a capacitor (C ₁₎ connected to the oscillating integrated element (IC ₁₎ The trigger pulse is output to the pin 3 of the integrated device IC ₁ .

The trigger pulse, which is the output of the pin 3 of the oscillation integrated device IC ₁ , is input to the pin 14 of the counter integrated device IC ₂ , and outputs the pulse to the pins 2, 3, 4, and 7. In this case, the pulse width may be varied by varying the variable resistor VR of the pulse time adjusting unit 5.

That is, the trigger pulse time can be adjusted by the potential difference between the both ends of the variable resistor VR. When the image signal is applied to the base of the transistor Q ₁ through the resistor R ₄ (R ₅ ), the transistor Q ₁ is " The diode D ₁ connected to the collector side by being turned "on" has a lower potential on the anode side than the cathode side, so that the pin 7 of the oscillation integrated device IC ₁ is "off".

Therefore, when the pin 7 of the oscillation integrated device IC ₁ is "off", the pin 3 of the oscillation integrated device IC ₁ is in (a) of FIG. 2 in which the pulse width is adjusted by the variable resistor VR. Outputs a trigger pulse such as

At this time, by varying the variable resistance VR of the pulse time adjusting unit 5, the display time per camera can be adjusted to 4-60 seconds.

On the one hand the pin (2) of a counter integrated device (IC ₂₎ counter integrated device (IC ₂₎ when the pulse is input consisting of a flip-flop, such as in a second-degree (a) pin 14 of the second-degree (or The same pulse is outputted, and the output pulse is applied to the camera controller 1 which controls the video signal of the camera A after the switch SK ₂ .

In the camera controller 1, when a pulse is input from the pin ₂ of the counter integrated device IC ₂ as shown in FIG. 2B, the transistor Q ₅ is turned on during the high level period. When Q ₅ is "turned on", transistor Q ₄ is "turned on" so that power Vcc is applied to camera A so that camera A is operated and the video signal of camera A is sent to the monitor. Is applied and displayed.

In this way the end of the output of the waveform, as in a second-degree (B) for operating the camera (A) by directly outputting the waveform as in FIG. 2 (C) with a pin (3) of the counter integrated device (IC ₂₎ camera The camera B is operated by driving the controller 2 so that the video signal of the camera B is displayed on the monitor.

Then, the camera C (D) is driven by driving the camera controller (3) (4) with the same waveform of (C) of FIG. 2, which is the output of the pin (4) (7) of the counter integrated device (IC ₂ ). Since the camera AD is sequentially driven, the camera AD is sequentially driven during the pulse time period set by the pulse time adjusting unit 5.

However, when the camera signal is switched when the driving of the camera A is completed and the camera B is driven, noise is displayed on the monitor, and thus the muting unit 6 is configured to eliminate this.

That is, when a low level is applied among the output pulse waveforms as shown in FIG. 2A, which is output from the pin 3 of the oscillation integrated device IC ₁ , the transistor Q is provided through the resistor R ₆ and R ₇ . ₂₎ to be "turned on" by also transistor (Q ₃₎ connected to the collector side of the transistor (Q ₂₎ "turned on" by a video signal and an audio signal output terminal connected to the collector side of the transistor (Q ₃₎ connected to the ground given Allows muting operation.

Therefore, noise is not displayed on the monitor when the camera's video signal is switched.

Eventually, the camera A operates during the same pulse time as in (b) of FIG. 2 but the image displayed on the monitor becomes a period of high level in (a) of FIG. 2 and low level in (a) of FIG. In the period when the period is low and the level is low in FIG.

When such a switch (SK ₂ -SK ₅ ) is switched to the state shown in the drawing, the camera (AD) signal is automatically displayed through the monitor sequentially during the time set by the pulse time adjustment unit (5).

However, when the switch SK ₁ is switched to the opposite position as shown in the drawing, the oscillating integrated device IC ₁ and the counter integrated device IC ₂ do not operate, so the camera AD signal selection is made manually.

As described above, the present invention can select and display several camera signals manually and automatically with one monitor, and can change the display time per camera. And because it can mute the voice signal, there is an effect that can eliminate the noise.

Claims (1)

In the monitoring monitor circuit in which the camera AD signal is applied to the monitor through the camera control unit 1-4, the oscillation integrated device IC ₁ is operated with the switch SK ₁ to provide a resistor R ₆ (R ₇ ). ) And a muting section 6 composed of transistors Q ₂ and Q ₃ , and at the same time controlling a pulse time adjusting section 5 composed of a transistor Q ₁ and a variable resistor VR to which an image signal is applied. after adjusting the output pulse of the time counter integrated device (IC ₂₎ configure the output of the counter integrated device (IC ₂₎ pulse to be applied sequentially to a video camera control unit (1-4) via a switch (SK ₂ -SK ₅₎ The signal switching circuit of the configured monitoring monitor.